大部分常用鎳鉻系奧氏體不銹(xiu)鋼自高溫奧氏體狀態冷至室溫獲得的奧氏體基體組織都是亞穩定的,當繼續冷卻到室溫以下更低的溫度,或者經受冷變形,其中的一部分或大部分奧氏體會發生馬氏體轉變,變成馬氏體組織。不銹鋼中馬氏體有兩種形態:體心立方的a'馬氏體,呈鐵磁性;六方結構的ε馬氏體,為非鐵磁性。由于ε馬氏體總是與a'馬氏體伴隨而出現,有人認為ε馬氏體是γ→a'過程中的一種過渡相,也有人認為ε馬氏體是一種獨立相。
馬氏體轉變受鋼的化學成分、溫(wen)度、冷變形量及變形速率的影響。
曾對不同(tong)成(cheng)分(fen)的(de)(de)(de)Fe-Mn-Cr-Ni合(he)金(jin)的(de)(de)(de)馬氏體(ti)相(xiang)(xiang)變(bian)(bian)(bian)進行過(guo)研究(jiu)(含0.03%C、0.01%~0.03%Si、0.006%~0.019%N、0.012%~0.10%Al):含20%Mn的(de)(de)(de)Fe-Mn合(he)金(jin)自(zi)1050℃水冷至(zhi)(zhi)(zhi)室(shi)(shi)溫,發(fa)(fa)生(sheng)(sheng)γ→E轉變(bian)(bian)(bian),相(xiang)(xiang)約(yue)(yue)為(wei)(wei)(wei)(wei)(wei)(wei)(wei)(wei)40%,再冷卻至(zhi)(zhi)(zhi)-196℃,y相(xiang)(xiang)幾乎全(quan)部轉變(bian)(bian)(bian)為(wei)(wei)(wei)(wei)(wei)(wei)(wei)(wei)ε相(xiang)(xiang),只生(sheng)(sheng)成(cheng)少量(liang)的(de)(de)(de)α'相(xiang)(xiang)。成(cheng)分(fen)為(wei)(wei)(wei)(wei)(wei)(wei)(wei)(wei)Fe-5%Mn-15%Cr-9%Ni合(he)金(jin)自(zi)1050℃水冷至(zhi)(zhi)(zhi)室(shi)(shi)溫,10min后冷至(zhi)(zhi)(zhi)-196℃,不發(fa)(fa)生(sheng)(sheng)馬氏體(ti)相(xiang)(xiang)變(bian)(bian)(bian),仍為(wei)(wei)(wei)(wei)(wei)(wei)(wei)(wei)100%的(de)(de)(de)y相(xiang)(xiang);冷至(zhi)(zhi)(zhi)室(shi)(shi)溫,再在(zai)20℃下施以(yi)40%冷變(bian)(bian)(bian)形,將(jiang)發(fa)(fa)生(sheng)(sheng)γ→ε+α'的(de)(de)(de)轉變(bian)(bian)(bian),轉變(bian)(bian)(bian)量(liang)約(yue)(yue)為(wei)(wei)(wei)(wei)(wei)(wei)(wei)(wei)20%,其中約(yue)(yue)2/3為(wei)(wei)(wei)(wei)(wei)(wei)(wei)(wei)ε相(xiang)(xiang),1/3為(wei)(wei)(wei)(wei)(wei)(wei)(wei)(wei)α'相(xiang)(xiang);如(ru)果自(zi)1050℃水冷至(zhi)(zhi)(zhi)室(shi)(shi)溫后,再在(zai)-196℃下施以(yi)40%的(de)(de)(de)冷變(bian)(bian)(bian)形,發(fa)(fa)生(sheng)(sheng)γ→e+α'的(de)(de)(de)轉變(bian)(bian)(bian),轉變(bian)(bian)(bian)量(liang)近90%,其中約(yue)(yue)1/4為(wei)(wei)(wei)(wei)(wei)(wei)(wei)(wei)ε相(xiang)(xiang),3/4為(wei)(wei)(wei)(wei)(wei)(wei)(wei)(wei)a'相(xiang)(xiang)。成(cheng)分(fen)為(wei)(wei)(wei)(wei)(wei)(wei)(wei)(wei)Fe-20%Cr-12%Ni的(de)(de)(de)合(he)金(jin)自(zi)1050℃水冷,10min后冷至(zhi)(zhi)(zhi)-196℃,不發(fa)(fa)生(sheng)(sheng)馬氏體(ti)相(xiang)(xiang)變(bian)(bian)(bian),冷至(zhi)(zhi)(zhi)室(shi)(shi)溫在(zai)20℃下施以(yi)40%的(de)(de)(de)冷變(bian)(bian)(bian)形,僅發(fa)(fa)生(sheng)(sheng)γ→E轉變(bian)(bian)(bian),相(xiang)(xiang)約(yue)(yue)為(wei)(wei)(wei)(wei)(wei)(wei)(wei)(wei)10%;如(ru)果冷至(zhi)(zhi)(zhi)室(shi)(shi)溫后再在(zai)-196℃下施以(yi)40%的(de)(de)(de)冷變(bian)(bian)(bian)形,將(jiang)發(fa)(fa)生(sheng)(sheng)γ→ε+α轉變(bian)(bian)(bian),轉變(bian)(bian)(bian)量(liang)約(yue)(yue)為(wei)(wei)(wei)(wei)(wei)(wei)(wei)(wei)55%,15%為(wei)(wei)(wei)(wei)(wei)(wei)(wei)(wei)ε相(xiang)(xiang),40%為(wei)(wei)(wei)(wei)(wei)(wei)(wei)(wei)α'相(xiang)(xiang)。
對(dui)于(yu)奧氏體不銹鋼的馬(ma)氏體轉變的臨(lin)界溫(wen)度M3,已建立起若(ruo)干(gan)Ms,點(dian)(a')與合(he)金成分關系(xi)的經驗公式,下(xia)面是其中的一(yi)個表(biao)達式:
上(shang)面兩個(ge)公式說明,奧氏體(ti)(ti)不(bu)銹鋼中(zhong)合金元素含量(liang)越高,馬(ma)氏體(ti)(ti)點就越低,馬(ma)氏體(ti)(ti)轉變就越不(bu)容易發(fa)生。
在18Cr-8Ni奧氏體不銹鋼中,α'馬氏體形成量隨冷變形量加大和變形溫度降低而增多,如圖9.46和圖9.47所示。可以看出,在每一變形溫度下,α'馬氏體含量隨冷變形量加大而增長到一定數值后將趨于飽和。隨變形溫度的降低,在同樣變形量的條件下,α'馬氏體的生成量增加,其增加也有一個飽和值,亦即無論采取什么措施,不可能完全轉變為馬氏體。這種奧氏體穩定化受多種因素影響,除合金成分和晶粒度等內在因素外,還有奧氏體化溫度、冷卻速率等外界因素。
變(bian)形速(su)率對(dui)馬氏體轉變(bian)的影響主要(yao)是變(bian)形發(fa)熱導致材料溫度(du)上(shang)升的作用,即變(bian)形速(su)率越(yue)高(gao),材料溫度(du)也(ye)越(yue)高(gao),因而α'馬氏體的生成(cheng)量也(ye)越(yue)少。
